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The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics
Series 8
Volume 21, 1970 - Issue 172
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Original Articles

X-ray line broadening as a measure of crystallite size in oxide powders

I. F. Guilliatt Department of Ceramics with Refractories Technology, University of Sheffield
&
N. H. Brett Department of Ceramics with Refractories Technology, University of Sheffield
Pages 671-680 | Received 11 Sep 1969, Accepted 04 Dec 1969, Published online: 13 Sep 2006

Citations (14)

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Read on this site (1)

I. F. Guilliatt & N. H. Brett. (1971) Crystallite size and shape relationships in the product-precursor pair MgO-Mg(OH)2. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 23:183, pages 647-653.
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Articles from other publishers (13)

Rafael Salomão, C.C. Arruda & Maria L.P. Antunes. (2020) Synthesis, Dehydroxylation and Sintering of Porous Mg(OH)2-MgO Clusters: Evolution of Microstructure and Physical Properties. Interceram - International Ceramic Review 69:1, pages 52-62.
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Nathalie Audebrand, Christine Bourgel & Daniel Louër. (2012) Ex-oxalate magnesium oxide, a strain-free nanopowder studied with diffraction line profile analysis. Powder Diffraction 21:3, pages 190-199.
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N. Thangaraj, K.H. Westmacott & U. Dahmen. (1991) HVEM studies of the sintering of MgO nanocrystals prepared by Mg(OH)2 decomposition. Ultramicroscopy 37:1-4, pages 362-374.
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Mun Gyu Kim, Michael J. Cima & Alan W. Searcy. (2005) Comparison of Sizes of Magnesia Crystals Calculated from X‐ray Diffraction Line‐Broadening and Transmission Electron Microscopy Observations. Journal of the American Ceramic Society 72:8, pages 1514-1516.
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Hiromitu Naono. (1989) Micropore formation due to thermal decomposition of magnesium hydroxide. Colloids and Surfaces 37, pages 55-70.
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Kiyoshi Itatani, Kiyotaka Koizumi, F. Scott Howell, Akira Kishioka & Makio Kinoshita. (1988) Agglomeration of magnesium oxide particles formed by the decomposition of magnesium hydroxide. Journal of Materials Science 23:9, pages 3405-3412.
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M.G. Kim, U. Dahmen & Alan W. Searcy. (2005) Shape and Size of Crystalline MgO Particles Formed by the Decomposition of Mg(OH) 2 . Journal of the American Ceramic Society 71:8.
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J.M. Fernández Rodríguez, J. Morales & J.L. Tirado. (1985) Texture and microstructure of NiO derived from Ni(OH)2 in vacuum. Surface Technology 26:3, pages 261-268.
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J. Morales, J.L. Tirado & M. Macias. (1984) Changes in crystallite size and microstrains of hematite derived from the thermal decomposition of synthetic akaganeite. Journal of Solid State Chemistry 53:3, pages 303-312.
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J. Green. (1983) Calcination of precipitated Mg(OH)2 to active MgO in the production of refractory and chemical grade MgO. Journal of Materials Science 18:3, pages 637-651.
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C.L Cronan, F.J Micale, M Topić, H LeidheiserJr.Jr., A.C Zettlemoyer & S Popovic. (1976) Surface properties of Ni(OH)2 and NiO. II. Mechanism for the thermal decomposition of Ni(OH)2 and other metal hydroxides. Journal of Colloid and Interface Science 55:3, pages 546-557.
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I. F. Guilliatt & N. H. Brett. (1974) X-ray diffraction studies of some sols and gels. Journal of Materials Science 9:12, pages 2067-2068.
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I. F. Guilliatt & N. H. Brett. (1970) Variations in the lattice constant of calcium oxide. Journal of Materials Science 5:7, pages 615-617.
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